1. 1 Pertemuan 07 Peubah Acak Diskrit Matakuliah: I0134 -Metode Statistika Tahun: 2007

2. 2 Learning Outcomes Pada akhir pertemuan ini, diharapkan mahasiswa akan mampu : Mahasiswa akan dapat menghitung peluang fungsi diskrit dan nilai harapan dan ragamnya.

3. 3 Outline Materi Tipe Peubah Acak Distribusi peluang peubah acak Distribusi kumulatif Nilai harapan dan varians

4. 4 Random Variables random variableA quantitative variable x is a random variable if the value that it assumes, corresponding to the outcome of an experiment is a chance or random event. discrete continuous.Random variables can be discrete or continuous. Examples:Examples: x = SAT score for a randomly selected student x = number of people in a room at a randomly selected time of day x = number on the upper face of a randomly tossed die

5. 5 Probability Distributions for Discrete Random Variables probability distribution for a discrete random variable xThe probability distribution for a discrete random variable x resembles the relative frequency distributions we constructed in Chapter 1. It is a graph, table or formula that gives the possible values of x and the probability p(x) associated with each value.

6. 6 Example Toss a fair coin three times and define x = number of heads. 1/8 P(x = 0) = 1/8 P(x = 1) = 3/8 P(x = 2) = 3/8 P(x = 3) = 1/8 P(x = 0) = 1/8 P(x = 1) = 3/8 P(x = 2) = 3/8 P(x = 3) = 1/8 HHH HHT HTH THH HTT THT TTH TTT x32221110x32221110 xp(x) 01/8 13/8 2 31/8 Probability Histogram for x

7. 7 Probability Distributions Probability distributions can be used to describe the population, just as we described samples in Chapter 1. –Shape: –Shape: Symmetric, skewed, mound-shaped … –Outliers: –Outliers: unusual or unlikely measurements –Center and spread:  –Center and spread: mean and standard deviation. A population mean is called  and a population standard deviation is called 

8. 8 The Mean and Standard Deviation Let x be a discrete random variable with probability distribution p(x). Then the mean, variance and standard deviation of x are given as

9. 9 Example Toss a fair coin 3 times and record x the number of heads. xp(x)xp(x) (x-  2 p(x) 01/80(-1.5) 2 (1/8) 13/8 (-0.5) 2 (3/8) 23/86/8(0.5) 2 (3/8) 31/83/8(1.5) 2 (1/8)

10. 10 Example The probability distribution for x the number of heads in tossing 3 fair coins. Shape? Outliers? Center? Spread? Symmetric; mound-shaped None  = 1.5  =.688 

11. 11 Key Concepts I. Experiments and the Sample Space 1. Experiments, events, mutually exclusive events, simple events 2. The sample space 3. Venn diagrams, tree diagrams, probability tables II. Probabilities 1. Relative frequency definition of probability 2. Properties of probabilities a. Each probability lies between 0 and 1. b. Sum of all simple-event probabilities equals 1. 3. P(A), the sum of the probabilities for all simple events in A

12. 12 Key Concepts III. Counting Rules 1. mn Rule; extended mn Rule 2. Permutations: 3. Combinations: IV. Event Relations 1. Unions and intersections 2. Events a. Disjoint or mutually exclusive: P(A  B)  0 b. Complementary: P(A)  1  P(A C )

13. 13 Key Concepts 3. Conditional probability: 4. Independent and dependent events 5. Additive Rule of Probability: 6. Multiplicative Rule of Probability: 7. Law of Total Probability 8. Bayes ’ Rule

14. 14 Key Concepts V. Discrete Random Variables and Probability Distributions 1. Random variables, discrete and continuous 2. Properties of probability distributions 3. Mean or expected value of a discrete random variable: 4. Variance and standard deviation of a discrete random variable:

15. 15 Selamat Belajar Semoga Sukses.